FR3081671A1 - METHOD FOR MANAGING A BULB - Google Patents

Abstract

The invention relates to a method for managing a bulb (1) adapted to emit different wavelengths of light, and connected to a home automation platform (2), characterized in that it comprises the implementation by a unit of processing (21) of the platform (2) of steps of: (a) recovering and storing the configuration of the bulb (1) in the on state; (b) detecting a second transition of the light bulb (1) from an off state to the on state, and transmitting to the light bulb (1) a configuration according to the stored one or more configurations.

Description

METHOD FOR MANAGING A BULB

FIELD OF THE INVENTION AND STATE OF THE ART

The present invention relates to a method for managing a light bulb.

It is known to use so-called connected bulbs which contain a communication device and a dimmer. These bulbs are most often controllable by a control box, or a smartphone. They work with light-emitting diodes of several basic colors, and their control generally makes it possible to vary the light intensity and the emission color, we speak of "configuration" of the bulb. In other words, piloting allows for example to pass from a very strong light to a subdued light, or to pass from a green lighting to a red lighting. The variation in color also makes it possible to modulate the white light emitted, for a white light which is richer in blue light (this is called cold light) or for a white light which is richer in red light (it is then called warm light). These devices thus make it possible to easily change the lighting and the ambiance of the room in which they are arranged.

However, these bulbs have a major drawback, which is that after switching off, they light up again in a neutral configuration which does not take account of the adjustments previously made.

It would be possible to add a memory allowing the configuration to be stored, but this would greatly increase their cost.

Consequently, it is desirable to find a solution allowing to relight the current bulbs in a previously adjusted configuration.

GENERAL PRESENTATION OF THE INVENTION

According to a first aspect, the invention relates to a method for managing a bulb adapted to emit different wavelengths of light, and connected to a home automation platform. The method includes the implementation by a processing unit of the home automation platform of steps of:

(a) recovery and storage of the configuration of the bulb in the lit state;

(b) detection of a second transition of the bulb from an off state to the on state, and transmission to the bulb of a configuration depending on the stored configuration or configurations.

It is specified that the second transition is named as such with reference to a first transition which corresponds to the transition from the on state to the off state. Indeed, the invention makes it possible to monitor the re-ignition (after switching off) of the bulb to restore a memorized configuration. This arrangement is particularly advantageous because it allows a saved configuration to be restored directly without requiring a user to re-configure.

Step (a) can be iterated until a first transition of the bulb from an on to off state, preferably step (a) is iterated every 10 to 20 seconds.

This arrangement allows the last configuration of the bulb to be stored in memory, even if the user modifies this configuration shortly before switching off.

Step (a) may include recovering the light spectrum emitted by the bulb in the lit state.

The recovery of the light spectrum advantageously makes it possible to memorize the color of the light emitted by the bulb, whether it is a monochromatic (for example: green) or polychromatic (for example shades of white light) light.

Step (a) may include recovering the amount of light emitted by the bulb in the on state.

The amount of light emitted is correlated with the light intensity felt by the user. It is therefore particularly advantageous to memorize the amount of light.

Step (a) may include the time stamp of said stored configuration.

In a particularly advantageous manner, the timestamp of each configuration makes it possible to store several configurations each in association with a timestamp. Thus, it may be possible to restore a configuration corresponding to a time stamp, among the multiple configurations saved.

Step (b) may include identifying the stored configuration of the bulb corresponding to the moment of detection of the transition of the bulb from the off state to the on state.

By "corresponding to the time of detection" is meant a time range around said time, for example more or less a quarter of an hour, or more or less an hour.

This arrangement allows you to adjust the brightness to the schedule, for example to have a soft light in the morning and in the evening and a brighter light in the middle of the day.

The bulb can be configured to have a neutral configuration by default corresponding to the emission of white light on a spectrum ranging from 380nm to 780nm, with an amount of light between 200 and 400 lumens.

Thus, the bulb can be plugged into any lighting medium and emit "standard" white light.

Step (b) may include the prior detection of a first transition of the bulb from the on state to the off state, and the determination of a duration between the first transition and the second transition.

This arrangement advantageously makes it possible to perform conditional actions as a function of the duration between the first transition and the second transition.

Step (b) can be implemented only if said duration between the first transition and the second transition is greater than a predetermined duration.

This arrangement thus makes it possible to send the configuration saved to the bulb only if the duration between the first and the second transition exceeds a predetermined duration. In other words, if a user turns off and turns on the bulb in a time less than the predetermined time, step (b) will not be implemented and the bulb will then be in neutral configuration.

The method may include a step (c) of detecting a predetermined request and deleting the last stored configuration.

This arrangement advantageously allows a user to send a command deleting the configuration, and thereby causing a switch to a neutral configuration.

Step (a) can also comprise the detection of at least one tag present near the bulb, an identifier of the tag or tags identified being associated with the stored configuration.

This arrangement makes it possible to associate, with the bulb configuration, beacons present around the home automation platform. Since the beacons can be worn by people, this arrangement can make it possible to associate a bulb configuration with certain people fitted with beacons.

Step (b) can further comprise the detection of at least one tag present near the bulb, the configuration transmitted in step (b) also being a function of the identifiers of the tag or tags identified.

This arrangement makes it possible to verify the presence of beacons around the bulb to transmit an adequate configuration.

Step (b) can include, if the at least one detected identifier is identical to the at least one stored identifier, the transmission to the bulb of the configuration of the bulb associated with said at least one identifier.

This arrangement makes it possible to transmit a configuration corresponding to the tags present.

Step (b) may include, if the at least one detected identifier is different from the at least one stored identifier, the transmission to the light bulb of the most recent configuration stored.

This arrangement makes it possible to transmit the last configuration stored in the case where the tags present do not correspond to the tags stored.

Said at least one tag can be a mobile terminal.

This arrangement advantageously makes it possible to associate a configuration with a personal, everyday object, of use which is particularly widespread.

Said at least one beacon can be a near field communication beacon.

This technology is particularly suitable for connected objects.

Said at least one tag can be a Bluetooth® tag.

This technology is particularly suitable for connected objects.

Said at least one tag can be a Wi-Fi tag.

This technology is particularly suitable for connected objects.

Said at least one tag can be an infrared tag.

This technology is particularly suitable for connected objects.

Said at least one beacon can be an ultra-sonic beacon.

This technology is particularly suitable for connected objects.

According to a second aspect, the invention relates to an assembly comprising a bulb and a home automation platform suitable for implementing the method according to the invention.

Thus, the invention proposes a global solution with a set allowing the process to be implemented.

The home automation platform can be an internet access box.

The internet access box is a very common device. This arrangement therefore makes it possible to implement the method with existing equipment. In other words, this arrangement makes it possible to implement the process without the need for a user to purchase an additional object.

According to another aspect, the invention relates to a computer program product comprising code instructions for the execution of a method, according to the invention, for managing a bulb adapted to emit different wavelengths of light, when the program is run on a computer.

This arrangement allows the process to be carried out on a computer.

According to another aspect, the invention relates to a storage means readable by computer equipment on which a computer program product comprises code instructions for the execution of a method, according to the invention, for managing a light bulb. suitable for emitting different light wavelengths. This arrangement makes it possible to implement the method according to the invention on a computer.

DESCRIPTION OF THE FIGURES

Other characteristics and advantages of the invention will emerge from the following description, which is purely illustrative and not limiting, and should be read with reference to the appended figures in which:

- Figure 1 schematically shows an assembly according to the invention;

- Figure 2 is an algorithm of the general operation of the method according to the invention showing the dotted alternatives.

DETAILED DESCRIPTION OF THE INVENTION

General architecture

Referring to Figure 1, the invention relates to a home automation assembly 10 which comprises a connected bulb 1 and a home automation platform 2. It will be understood that a plurality of bulbs 1 may be involved.

In a conventional manner, the bulb 1 is adapted to emit different lengths of light waves (different over time, ie which may vary) and for this typically comprises a dimmer 11 and at least one light-emitting diode 12. Thus, the bulb 1 can diffuse different colors (for example blue or red) and can also diffuse different shades of white light (warmer with more red light or cooler with more blue light). The choice of parameters that define the color and / or shade of bulb 1 is called "configuration" of bulb 1.

The bulb 1 can be connected to the home automation platform 2 via a line carrier current (PLC) link or via a wireless link of Wi-Fi, DECT ULE or Bluetooth type, if necessary via the internet.

The home automation platform 2 includes a processing unit 21 such as a processor, and a storage unit 12 (a memory, for example flash). Preferably, the home automation platform 2 is an Internet connection box (IAD, "Integrated Access Device", ie a "box" of an operator), but it will be understood that it can be any other computer equipment suitable for controlling or less monitor bulb 1, for example a mobile terminal connected to the local network or a remote server.

General principle of the management process

The invention relates to a method for managing the bulb 1 by the home automation platform 2.

With reference to FIG. 2, the method comprises the implementation by a processing unit 21 of the home automation platform 2 of steps of:

(a) recovery and storage of the configuration of bulb 1 in the on state;

(b) detection of a second transition T2 of the bulb 1 from an off state to the on state, and transmission to the bulb 1 of a configuration C1 as a function of the stored configuration or configurations C1.

It is specified that the second transition T2 is named as such with reference to a first transition T1 which corresponds to the transition from the on state to the off state which necessarily takes place between steps (a) and (b). Indeed, the invention makes it possible to monitor the re-ignition (after switching off) of the bulb 1 to restore a memorized configuration. This arrangement is particularly advantageous because it allows a saved configuration to be restored directly without requiring a user to re-configure.

It is specified that step (a) can be iterated until a first transition T1 of the bulb from an on state to the off state, preferably step (a) is iterated every 10 to 20 seconds. Preferably, step (a) is iterated every 15 seconds. Indeed, it is possible that before switching off the bulb 1 (first transition T1) the user can vary his configuration.

Step (a) includes recovering the light spectrum emitted by the bulb 1 in the lit state and recovering the amount of light emitted by the bulb in the lit state.

According to a first embodiment, only the last configuration of the bulb 1 before switching off is stored, and the configuration transmitted in step (b) is the stored configuration.

By way of example, the bulb 1 can be lit with a configuration C1 of emission of a spectrum from 625 to 740 nm, at 180 lumens, ie a dim red light.

After switching off (first transition T1) of bulb 1, upon re-ignition (second transition T2), platform 2 immediately reconfigures bulb 1 on an emission spectrum of 625 at 740 nm, at 180 lumens.

Thus, the bulb 1 lights up in the stored configuration C1, that is to say as extinguished, and the user does not have to carry out a tedious re-setting.

According to other embodiments which will be described in more detail in more detail, a plurality of configurations of the bulb 1 can be memorized, and thus the configuration transmitted can take account of these different memorized configurations.

Neutral configuration

In a conventional manner, the bulb 1 can be preconfigured to “naturally” emit white light (ie a spectrum ranging from 380nm to 780nm) with a standard brightness (between 200 and 400 lumens). We will speak here of C0 neutral configuration, or standard configuration. This arrangement makes it possible to connect bulb 1 to any socket and obtain white light. Indeed, without any particular intervention (i. E. Without adjustments) the bulb 1 is in neutral configuration C0. This is the configuration in which the bulb 1 lights up by default, and it is understood that in the absence of a memorized configuration, no configuration will be transmitted to the bulb 1 lighting up and the latter will apply the configuration neutral C0.

In some cases, a user may prefer to return to neutral configuration C0, rather than relighting the bulb 1 in a configuration C1 depending on the previous configurations.

To do this, the method according to the invention offers two possibilities.

First, as shown diagrammatically in FIG. 2, step (b) can comprise the preliminary detection DT1 of a first transition T1 of the bulb (1) from the on state to the off state, and the determination D1 d 'a duration between the first transition T1 and the second transition T2. According to this provision, step (b) is implemented only if said duration between the first transition T1 and the second transition T2 is greater than a predetermined duration. Conversely, this means that step (b) is not implemented if said duration between the first transition T1 and the second transition T2 is less than the predetermined duration, i.e. we can avoid the application of the previous configurations.

This duration can for example be 10 seconds. In other words if in less than 10 seconds the user turns off and on again, then the next ignition will be in neutral configuration C0, and the saved configuration C1 will be ignored.

Secondly, the user can send a request to delete the memorized configuration or configurations and therefore to relight in neutral configuration C0 by default. To do this, the method comprises a step (c) of detecting a predetermined request and deleting the last stored configuration. The request can be sent for example from a mobile terminal connected to the home automation platform 2 which transmits the request to the bulb 1, or by pressing a possible button on the bulb 1.

It should be noted that these two possibilities are alternatives within the same process which are not exclusive. In other words, the user can just as well restore the neutral configuration C0 by using a rapid shutdown and ignition series, or by sending a delete request.

Adaptation of the configuration according to the schedule

According to a particular arrangement, step (a) can include the time stamp of each stored configuration, i.e. a stored configuration is associated with time information.

Thus, several successive configurations can be stored and associated with different schedules.

According to this same arrangement, step (b) can comprise the identification of the stored configuration of the bulb 1 corresponding to the instant of detection of the transition of the bulb 1 from the off state to the on state. . By "corresponding to the time of detection" is meant a time range around said time, for example more or less a quarter of an hour, or more or less an hour.

This arrangement allows you to adjust the brightness to the schedule, for example to have a soft light in the morning and in the evening and a brighter light in the middle of the day.

Adaptation of the configuration according to the people present

According to another particular arrangement, the method makes it possible to adapt the settings to the people present near the bulb 1.

To do this, step (a) can further comprise the detection of at least one tag 3 present near the bulb 1, an identifier ID3 of the tag or tags 3 identified being associated with the configuration C3 stored.

Similarly, step (b) can also comprise the detection D3 of at least one beacon 3 present near the bulb 1, the configuration transmitted in step (b) also being a function of the identifiers ID3 of the or the 3 tags identified.

Step (b) then comprises, if the at least one identifier ID3 detected is identical to the at least one identifier ID3 stored, the transmission to bulb 1 of the configuration C3 of the bulb associated with said at least one ID3 identifier.

Step (b) can additionally comprise, if the at least one detected identifier is different from the at least one stored ID3 identifier, the transmission to bulb 1 of the most recent configuration C1 stored.

In other words, the home automation platform 2 will detect beacons 3 present nearby and will associate these beacons 3 with the light configuration. Upon re-ignition, the home automation platform 2 will search for the tags 3 present around and compare the list of tags 3 present with the lists of stored tags. If an identical list is found, the home automation platform 2 sends the configuration C3 associated with this list to bulb 1.

If on the contrary, no match is found, platform 1 sends the last configuration C1.

It should be noted that this provision can be combined with the previous provision concerning time stamping. Thus, for each configuration C1 can correspond a time stamp and a list of tags 3. In the event of re-ignition, if there is a match with the tags present nearby, the home automation platform 2 will send the configuration corresponding to these tags 3 with the timestamp closest to the time of re-ignition. If there is no match, home automation platform 2 will just send the last configuration saved with the time stamp closest to the time of re-ignition.

The tag 3 can be, for example a mobile terminal. The beacon 3 can, for example, communicate using a GSM or 4G type mobile network, or near-field communication, or Bluetooth®, or Wi-Fi, or ultra-sonic or infrared communication.

Computer program product

According to another aspect, the invention relates to a computer program product comprising code instructions for the execution of the method, according to the invention, of management of the bulb 1 adapted to emit different wavelengths of light, when the program is run on a computer.

Storage medium

According to another aspect, the invention relates to a storage means readable by computer equipment on which the computer program product comprises code instructions for the execution of the method, according to the invention, for managing the adapted bulb 1. to emit different wavelengths of light.

Claims (19)

1. A method of managing a bulb (1) adapted to emit different wavelengths of light, and connected to a home automation platform (2), characterized in that it comprises implementation by a processing unit (21 ) of the home automation platform (2) of stages of: (a) recovery and storage of the configuration of the bulb (1) in the on state; (b) detection of a second transition (T2) of the bulb (1) from an off state to the on state, and transmission to the bulb (1) of a configuration (C) depending on the or the configurations (C1) stored. 2. Method according to claim 1, in which step (a) is iterated until a first transition of the bulb (1) from an on state to an off state, preferably step (a) is iterated every 10 to 20 seconds. 3. Method according to any one of claims 1 or 2, wherein step (a) comprises recovering the light spectrum emitted by the bulb (1) in the lit state. 4. Method according to any one of claims 1 to 3, wherein step (a) comprises recovering the amount of light emitted by the bulb (1) in the lit state. 5. Method according to one of claims 1 to 4, wherein step (a) comprises the time stamping of said configuration (C1) stored. 6. The method of claim 5, wherein step (b) comprises identifying the stored configuration (C1) of the bulb (1) corresponding to the moment of detection of the transition of the bulb (1 ) from the off state to the on state 7. Method according to any one of claims 1 to 6 in which the bulb (1) is configured to present a neutral configuration (CO) by default corresponding to the emission of white light over a spectrum ranging from 380nm to 780nm, with an amount of light between 200 and 400 lumens. 8. Method according to any one of claims 1 to 7, in which step (b) comprises the preliminary detection of a first transition (T1) of the bulb (1) from the on state to the state off, and the determination (D1) of a duration between the first transition (T1) and the second transition (T2). 9. The method of claim 8, wherein step (b) is implemented only if said duration between the first transition (T1) and the second transition (T2) is greater than a predetermined duration. 10. Method according to any one of claims 1 to 9, comprising a step (c) of detecting a predetermined request and deleting the last configuration (C1) stored. 11. Method according to any one of claims 1 to 10, in which step (a) further comprises the detection of at least one tag (3) present near the bulb (1), an identifier ( ID3) of the tag (s) (3) identified being associated with the configuration (C3) stored. 12. The method of claim 11, wherein step (b) further comprises detecting at least one tag (3) present near the bulb (1), the configuration transmitted in step (b ) also being a function of the identifiers (ID3) of the tag or tags (3) identified. 13. The method as claimed in claim 12, in which step (b) comprises, if the at least one detected identifier (ID3) is identical to the at least one stored identifier (ID3), transmission to the bulb ( 1) of the configuration (C3) of the bulb associated with said at least one identifier (ID3). 14. The method of claim 13 in combination with claim 5, wherein step (b) comprises, if the at least one identifier (ID3) detected is different from the at least one identifier (ID3) stored, the transmission to the bulb (1) of the most recent configuration (C1) memorized. 15. Method according to any one of claims 11 to 14 wherein said at least one tag (3) is a mobile terminal. 16. Home automation assembly (10) comprising a bulb (1) and a home automation platform (2) adapted to implement the method according to any one of claims 1 to 15. 17. Home automation assembly (10) according to claim 16 wherein the home automation platform (2) is an internet access box. 18. Product computer program comprising code instructions for the execution of a method according to one of claims 1 to 15 for managing a bulb (1) adapted to emit different wavelengths of light, when the program is run on a computer. 19. Storage means readable by computer equipment on which a computer program product comprises code instructions for the execution of a method according to one of claims 1 to 15 for managing a suitable bulb (1) to emit different wavelengths of light.